Payment Type:T/T,Others
Incoterm:FOB,CFR,CIF,EXW,DDP,DDU,Express Delivery
Transportation:Ocean,Land,Air,Express,Others
Port:Guangzhou,Shenzhen,Ningbo
$0.0810000-99999Piece/Pieces
$0.1≥100000Piece/Pieces
Model No.: 10.5*16mm
Brand: YB
Place Of Origin: China
Species: Permanent
Composition: Rare Earth Magnet, Ferrite Magnet, Neodymium Magnet, Plastic Magnet, Ndfeb Magnet, Alnico Magnet, Rubber Magnet
Shape: Ball, Coil, Block, Cup Shape, Strip, Stick, Bar, Pot / Cup Shape, Sheet
Application: Industrial Magnet
Tolerance: ±1%
Processing Service: Bending, Welding, Decoiling, Cutting, Punching, Moulding
Product Name: Indian Popular size 10.5*16mm Ferrite Magnet Moulded
Material Grade: Y30/Y30BH/Y35
Working Temperature: 80-250℃
Gauss Power: 1300+/-50GS
Surface Treatment: No coating
Magnetized Direction: 2-poles Radial
Application: Cooler pump
Delivery Time: 7-15 days
Packaging: Carton package and then packed in pallets
Productivity: 3000000pcs per month
Transportation: Ocean,Land,Air,Express,Others
Place of Origin: China
Supply Ability: 3000000pcs per month
Certificate: ISO9001
HS Code: 8505190090
Port: Guangzhou,Shenzhen,Ningbo
Payment Type: T/T,Others
Incoterm: FOB,CFR,CIF,EXW,DDP,DDU,Express Delivery
What's Ferrite Magnet Rotor?
A ferrite magnet rotor is a type of rotor used in electric motors and generators. It is made up of permanent magnets that are composed of ferrite, a type of ceramic material. Ferrite magnets are known for their high coercivity and low cost, making them a popular choice for various applications. In a ferrite magnet rotor, the magnets are arranged in a specific pattern to generate a magnetic field that interacts with the stator to produce rotational motion. These rotors are commonly used in small motors, such as those found in household appliances, automotive components, and industrial machinery.
The production of Ferrite Magnet Rotor?
The production of Ferrite Magnet Rotor involves several steps. Here is a general overview of the process:
1. Material selection: The first step is to select the appropriate ferrite material for the rotor. Ferrite magnets are typically made from a mixture of iron oxide and other metal oxides, such as strontium or barium.
2. Mixing: The selected materials are mixed together in a specific ratio to create a homogeneous mixture. This mixture is typically in powder form.
3. Pressing: The mixed powder is then compacted using a hydraulic press. This process helps to shape the powder into the desired rotor shape. The compacted powder is known as a green compact.
4. Sintering: The green compact is then heated at a high temperature in a controlled atmosphere. This process, known as sintering, helps to fuse the particles together and form a solid structure. The sintering temperature and time are critical factors that determine the final magnetic properties of the rotor.
5. Machining: Once the sintering process is complete, the rotor is machined to achieve the desired dimensions and tolerances. This may involve processes such as grinding, milling, or cutting.
6. Magnetizing: After machining, the rotor is magnetized using a strong magnetic field. This process aligns the magnetic domains within the material, creating a Permanent Magnet.
7. Surface treatment: Depending on the application, the rotor may undergo additional surface treatments to improve its performance or protect it from corrosion. This can include coating the rotor with a protective layer or applying a protective plating.
8. Quality control: Throughout the production process, various quality control checks are performed to ensure that the finished rotor meets the required specifications. This can include dimensional checks, magnetic field strength measurements, and visual inspections.
9. Packaging: Finally, the finished Ferrite Magnet Rotor is packaged and prepared for shipment to the customer.
It's important to note that the specific production process may vary depending on the manufacturer and the intended application of the Ferrite Magnet Rotor.
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